- Differential expression of the mRNA for the vanilloid receptor subtype 1 in cells of the adult rat dorsal root and nodose ganglia and its downregulation by axotomy.
Differential expression of the mRNA for the vanilloid receptor subtype 1 in cells of the adult rat dorsal root and nodose ganglia and its downregulation by axotomy.
Sensitivity to the pungent vanilloid, capsaicin, defines a subpopulation of primary sensory neurons that are mainly polymodal nociceptors. The recently cloned vanilloid receptor subtype 1 (VR1) is activated by capsaicin and noxious heat. Using combined in situ hybridization and histochemical methods, we have characterized in sensory ganglia the expression of VR1 mRNA. We show that this receptor is almost exclusively expressed by neurofilament-negative small- and medium-sized dorsal root ganglion cells. Within this population, VR1 mRNA is detected at widely varying levels in both the NGF receptor (trkA)-positive, peptide-producing cells that elicit neurogenic inflammation and the functionally less characterized glial cell line-derived neurotrophic factor-responsive cells that bind lectin Griffonia simplicifolia isolectin B4 (IB4). Cells without detectable levels of VR1 mRNA are found in both classes. A subpopulation of the IB4-binding cells that produce somatostatin has relatively low levels of VR1 mRNA. A previously uncharacterized population of very small cells that express the receptor tyrosine kinase (RET) and that do not label for trkA or IB4-binding has the highest relative levels of VR1 mRNA. The majority of small visceral sensory neurons of the nodose ganglion also express VR1 mRNA, in conjunction with the BDNF receptor trkB but not trkA. Axotomy results in the downregulation of VR1 mRNA in dorsal root ganglion cells. Our data emphasize the heterogeneity of VR1 mRNA expression by subclasses of small sensory neurons, and this may result in their differential sensitivity to chemical and noxious heat stimuli. Our results also indicate that peripherally derived trophic factors may regulate levels of VR1 mRNA.